Naslov
Thermochromic ink - paper interactions and their role in biodegradation of UV curable prints

Autori
Vukoje, Marina ; Miljanić, Snežana ; Hrenović, Jasna ; Rožić, Mirela

Izvornik
Cellulose (0969-0239) 25 (2018), 10; 6121-6138

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
thermochromic ink ; paper ink interactions ; biodegradation ; bacteria ; SEM ; FTIR

Sažetak
In this study, biodegradability aspects of UV thermochromic leuco dye print on three different paper materials (synthetic, recycled, and bulky) were studied using the soil burial test under anaerobic conditions. Biodegradation of UV curable thermochromic prints were evaluated for changes by visual examination, microbial growth assay, weight loss measurements, Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy and colorimetric measurements. Results showed a better absorption of ink into the bulky paper structure, followed by recycled paper. Synthetic paper is not absorbent. The ink binder altogether with classic pigment and microcapsules penetrates into the structure of bulky paper. Recycled paper absorbs ink binder mostly with classic pigment. Better adsorption of binder into the bulky paper structure results in thinner layer of ink binder on the paper surface. On non-absorbent synthetic paper, microcapsules are covered with thicker layer of ink binder. In the case of bulky paper, the highest rate of biodegradation was observed, resulting in a higher number of bacteria, higher weight loss, higher changes in colour (destruction of almost all microcapsules) and almost complete reduction in thermochromic effect of the prints. Results show that microcapsules, which penetrate into the structure of bulky paper, are promoting the rate of bulky paper biodegradation. The opposite behaviour was noticed for the penetration of classic pigment into the structure of recycled paper, which resulted in remarkable reduction of recycled paper biodegradation rate. The thicker layer of ink binder (containing classic pigment) on the surface of microcapsules on recycled paper resulted in slower rate of microcapsules degradation and smaller colour change of the print. The thickest layer of ink binder and classic pigment on synthetic paper surface causes the slowest rate of biodegradation of print.

Izvorni jezik
Engleski

Znanstvena područja
Kemija, Biologija, Grafička tehnologija, Kemijsko inženjerstvo

Napomena
Ovaj rad je u sklopu SuZ, financijske potpore
istraživanju: “Utjecaj interakcija tiskarska boja -
tiskovna podloga na klasično i organsko recikliranje”
(2016)te "Modifikacije konvencionalnih grafičkih
materijala nanočesticama i kromogenim materijalima" (2017)
(voditeljica: dr.sc. Mirela Rožić, red.prof.).

Glavna autorica rada: Vukoje Marina
Druga glavna autorica rada: Rožić Mirela

POVEZANOST RADA